Mechanism and dynamics of fatty acid photodecarboxylase | Zendy

Damien Sorigué | Zendy; Kyprianos Hadjidemetriou | Zendy; Stéphanie Blangy | Zendy; Guillaume Gotthard | Zendy; Adeline Bonvalet | Zendy; Nicolas Coquelle | Zendy; Poutoum-Palakiyem Samire | Zendy; Alexey Aleksandrov | Zendy; Laura Antonucci | Zendy; A. Benachir | Zendy; Sébastien Boutet | Zendy; Martin Byrdin | Zendy; Marco Cammarata | Zendy; Sergio Carbajo | Zendy; Stephan Cuiné | Zendy; R. Bruce Doak | Zendy; L. Foucar | Zendy; A. Gorel | Zendy; Marie Luise Grünbein | Zendy; Elisabeth Hartmann | Zendy; Rainer Hienerwadel | Zendy; M. Hilpert | Zendy; Marco Kloos | Zendy; Thomas J. Lane | Zendy; Bertrand Légeret | Zendy; Pierre Legrand | Zendy; Yonghua LiBeisson | Zendy; Solène Moulin | Zendy; Didier Nurizzo | Zendy; Gilles Peltier | Zendy; Giorgio Schirò | Zendy; Robert L. Shoeman | Zendy; Michel Sliwa | Zendy; Xavier Solinas | Zendy; Bo Zhuang | Zendy; Thomas R. M. Barends | Zendy; JacquesPhilippe Colletier | Zendy; M. Joffre | Zendy; Antoine Royant | Zendy; Catherine Berthomieu | Zendy; Martin H. Weik | Zendy; Tatiana Domratcheva | Zendy; Klaus Brettel | Zendy; Marten H. Vos | Zendy; Ilme Schlichting | Zendy; Pascal Arnoux | Zendy; Pavel Müller | Zendy; Fred Beisson | Zendy

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Mechanism and dynamics of fatty acid photodecarboxylase

Author(s) -

Damien Sorigué,

Kyprianos Hadjidemetriou,

Stéphanie Blangy,

Guillaume Gotthard,

Adeline Bonvalet,

Nicolas Coquelle,

Poutoum-Palakiyem Samire,

Alexey Aleksandrov,

Laura Antonucci,

A. Benachir,

Sébastien Boutet,

Martin Byrdin,

Marco Cammarata,

Sergio Carbajo,

Stephan Cuiné,

R. Bruce Doak,

L. Foucar,

A. Gorel,

Marie Luise Grünbein,

Elisabeth Hartmann,

Rainer Hienerwadel,

M. Hilpert,

Marco Kloos,

Thomas J. Lane,

Bertrand Légeret,

Pierre Legrand,

Yonghua LiBeisson,

Solène Moulin,

Didier Nurizzo,

Gilles Peltier,

Giorgio Schirò,

Robert L. Shoeman,

Michel Sliwa,

Xavier Solinas,

Bo Zhuang,

Thomas R. M. Barends,

JacquesPhilippe Colletier,

M. Joffre,

Antoine Royant,

Catherine Berthomieu,

Martin H. Weik,

Tatiana Domratcheva,

Klaus Brettel,

Marten H. Vos,

Ilme Schlichting,

Pascal Arnoux,

Pavel Müller,

Fred Beisson

Publication year - 2021

Publication title -

science

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 12.556

H-Index - 1186

eISSN - 1095-9203

pISSN - 0036-8075

DOI - 10.1126/science.abd5687

Subject(s) - flavin group , decarboxylation , photosynthesis , chemistry , electron transfer , electron transport chain , photochemistry , fatty acid , flavoprotein , algae , protonation , enzyme , catalysis , biochemistry , organic chemistry , biology , botany , ion

Light makes light work of fatty acids Photosynthetic organisms are notable for their ability to capture light energy and use it to power biosynthesis. Some algae have gone a step beyond photosynthesis and can use light to initiate enzymatic photodecarboxylation of fatty acids, producing long-chain hydrocarbons. To understand this transformation, Soriguéet al. brought to bear an array of structural, computational, and spectroscopic techniques and fully characterized the catalytic cycle of the enzyme. These experiments are consistent with a mechanism starting with electron transfer from the fatty acid to a photoexcited oxidized flavin cofactor. Decarboxylation yields an alkyl radical, which is then reduced by back electron transfer and protonation rather than hydrogen atom transfer. The wealth of experimental data explains how algae harness light energy to produce alka(e)nes and provides an appealing model system for understanding enzyme-catalyzed photochemistry more generally.Science , this issue p.eabd5687

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